FRACTONIA at Amazon

Fractonia by P.R. Lewis at Amazon.com“Fractonia” is now available for Kindle e-book readers. Unlike Google Play, Amazon is not offering a special introductory price for the ebook. However, Amazon has enabled the popular ” text-to-speech” option for this book. “Text-to-speech” is available on the following devices: Kindle Fire HDX, Kindle Fire HD, Kindle Touch, Kindle Keyboard, Kindle (2nd generation), and Kindle DX.

Amazon does offer a preview of the book, albeit disappointingly short. If you are interested in seeing a little more of the book before you decide to purchase, I recommend a visit to Lulu. Lulu is offering a more detailed, downloadable preview of the book in ePUB format. You can also purchase the ebook or the print version of “Fractonia” directly from the Lulu bookstore.

Purchase the Kindle-formatted version of “Fractonia” from Amazon.com.

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FRACTONIA in Print

Fractonia by Pearl R. Lewis“Fractonia” has been available for some time from e-book stores around the world. You can read the book on your computer, your tablet, or your phone. But if you are not a fan of virtual books, then this post brings you good news. Paper rules! “Fractonia” is a available as a REAL, tree-based book. You can now purchase your PRINT (paperback) copy of the book, and turn those pages the old fashioned (best) way.

The 116-page illustrated paperback is printed in the easy-to-handle (and slip into your bag) 6″x9″ format.

If you are new to the title and have not been following the development of this project, you can read more about Fractonia in the book section of my website. The book is suitable for middle school (advanced) readers, high school students, and adults. While prior knowledge of very simple fraction algebra is a plus, it is not essential. If you previously avoided mathematics as if it was the enemy, and have little to no recall of algebra, you are the perfect reader for this book. 

“Fractonia” is an adventure story that demonstrates that mathematics can be visualized as something quite different from a stack of numbers and equations. While not all students think “in pictures”, many who are turned off from more traditional ways of approaching mathematics can benefit from exploring topics in an image-centered way. Even though this book is advertised as a children/teen book in many places, this book is a good way for parents and teachers to explore the concept of visualization in mathematics.

Go on – give it a try. If you discover that you cannot connect with the strange characters or that the odd reference to a mathematical term is frying your brain, you can always donate the book to your local school library. Take a break from whatever you have planned this weekend, and go on a mind adventure – you know you want to do it.

 

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What Sane Person Writes a Novel about Fractions?

fractions“Mathematics is boring. Why do we have to study it anyway?”

“Do I REALLY have to finish all my Math homework? It’s just the same stuff over and over, and it makes no sense to me.”

“I hate doing these algebra exercises. They are SOOOOO boring.”

“I don’t understand this. It’s stupid. Why can’t I do something useful with my time?”

If you are a parent or teacher, then you have probably heard it all. The whining. The complaining. The angry outbursts. For a logical and emotionless subject, Mathematics has an uncanny ability to draw passionate responses from young people. It’s seldom a “YAY, I have Math homework” kind of response. No, it’s more like “ARGHHHH, I HATE Math!”

So why would anyone choose Mathematics as a starting point for a youth novel? And note that we are not talking about some mystical and captivating mathematical subject like String Theory or Equations of Relativity. No, sirree! We like a challenge, don’t we? Out with the exciting stuff, so we can sink our teeth into a common, garden-variety subject: fractions. Yes, you read that correctly. FRACTIONS. Not eye-popping fractal mathematics, mind you. Just regular fractions with numerators and denominators: those little number beasts you encountered way back in grade three of four.

Fractions in all their simple glory were the starting point for “Fractonia”. So is this a story about fractions? (Are you yawning and shaking your head in disbelief?) Yes, but probably not in the way you think. When I was at school and fractions were introduced to the class, the teacher talked about picking apples from a tree. (That was in the days when children actually went outside and climbed trees, so students could relate to the image of apples hanging from a tree.) More recently, while doing research for a new project, I took a look at some junior school materials focused on fractions. The apples were gone from the chapters about fractions. In their place, the reference to pizza slices appeared more often than anything else. (It seems the “an apple a day” phrase has been replaced with “a slice of pizza a day“.) Imagine this pizza being cut into pieces. Your friend eats one slice. You eat five slices. What percentage of the pizza is left? Is this stimulating your imagination and encouraging learning, or is it just making you think that you are hungry? Is there a different way to visualize fractions?

I set out to create a story that would give readers an entirely new perspective on fractions. Why? So they could better understand fractions? No – so they could know it is possible for something as “boring” as fractions to become interesting just by changing our perspective. I wanted to paint an imaginative picture over those sad pizza slices with no story to tell – a picture so unexpected that it would encourage readers to create their own imaginative ways to view subjects they found “boring”. In my experience, an interested student is more likely to learn and overcome learning difficulties than a student who is bored with the topic they are studying. In her article entitled, “How the Power of Interest Drives Learning“, Annie Murphy Paul says the following: “When we’re interested in what we’re learning, we pay closer attention; we process the information more efficiently; we employ more effective learning strategies, such as engaging in critical thinking, making connections between old and new knowledge, and attending to deep structure instead of surface features. When we’re interested in a task, we work harder and persist longer, bringing more of our self-regulatory skills into play.” If we learn better when we are interested, why not find a way to make what we have to learn interesting and engaging? It seems like a simple, common-sense way to ensure we learn more and enjoy doing it.

At its core, “Fractonia” is less about Mathematics and more about attitude. Yes, fractions are part of the story, but no, the story is about exploration, discovery, and possibility. It’s about taking responsibility for our own learning. Our learning is not our parents’ or our teachers’ responsibility – it is OURS: yours and mine. We don’t have to wait for our teacher to make the subject exciting or justify why we should study it. We don’t need to be entertained before we can learn something. No, the process of learning is an adventure that can be created and hosted inside your very own imagination. Go on the adventure, or stay home and mope about how boring everything is.

If you have never had a teacher show you HOW to create your very own learning adventure, sit down and read. But don’t read to be entertained – read to discover. Read so the book can become your teacher and show you how to create your own learning adventure. “Fractonia” is my adventure with something as simple as fractions. Other authors will take you on different adventures. You may not be ready to write your adventure in a book, but you are ready to have an adventure. There are no age limits on learning – we never outgrow a good adventure. What will your next adventure be?

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Is kindergarten too young to study Physics?

Studying Physics in a kindergarten classMany parents of young children have vague (and sometimes not so pleasant) memories of studying Physics during their high school years.  These same parents with their somewhat patchy memories of what matter and energy are, and how these “Physics things” interact, would be astounded to learn that their kindergarten-age children are in fact ready to study Physics.  But isn’t Physics terribly complex with lots of formulae, obscure calculations, and plenty of abstract concepts to glue it all together?  How can a kindergarten-age child possibly study Physics?

 [1]Marxen in her article “Push, Pull, Toss, Tilt, Swing: Physics for Young Children”, explores the role of Physics in the learning process and problem-solving skill development of young children.  Marxen comments that there are “similarities between how children think and learn and how scientists work. Children, like scientists, are theory builders. When children are allowed to construct knowledge by acting on their environment, they expand their understanding, which in turn contributes to their intellectual development.”  So your children are little rocket scientists in disguise, how exactly are they learning and building these theories?

Marxen explains that young children’s Physics experiences usually involve the movement of objects.  For most parents and teachers, “movement of objects” is synonymous with play.  The action is primary and the observation is secondary. Children typically make discoveries about matter and energy through creative play and simple discovery activities in the classroom and at home. For example, something as simple and inexpensive as some small balls and a few sheets of cardboard (that can be folded into ramp-like structures of varying steepness) can invite children to explore concepts that will only be translated into detailed formulae and complex concepts many years down the road for them.  Playing and learning to ask the question “why does that happen” gives these children the opportunity to acquire valuable learning experience.  This experience can be built upon to create a practical knowledge base which will later provide a sturdy foundation to which more complex, abstract Physics knowledge can easily be added.

Are kindergarten children too young to study Physics?  Absolutely not!  Teachers and parents alike can introduce young children to Physics discovery and learning with play-based activities without fear that the children may be overwhelmed or turned off Physics.  Plan playtime or classroom activities that focus on getting the children to experiment and make observations about the world they live in, and you will be well on your way to stimulating a life-long interest in, and appreciation for Physics.

[1]        Carol E. Marxen; Childhood Education, Vol. 71, 1995.

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